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  • (-) Empa Authors = Ghafoori, Elyas
  • (-) Keywords ≠ shape memory effect (SME)
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Analysis and design recommendations for structures strengthened by prestressed bonded Fe-SMA
Li, L., Wang, S., Chatzi, E., Motavalli, M., & Ghafoori, E. (2024). Analysis and design recommendations for structures strengthened by prestressed bonded Fe-SMA. Engineering Structures, 303, 117513 (16 pp.). https://doi.org/10.1016/j.engstruct.2024.117513
Fatigue strengthening of U-rib butt welds in orthotropic steel bridge decks using CFRP sheets
Lv, Z. L., Jiang, X., Qiang, X. H., Bai, J., & Ghafoori, E. (2024). Fatigue strengthening of U-rib butt welds in orthotropic steel bridge decks using CFRP sheets. In X. L. Gu, M. Motavalli, A. Ilki, & Q. Q. Yu (Eds.), Lecture notes in civil engineering: Vol. 259. International conference on smart monitoring, assessment and rehabilitation of civil structures (pp. 699-707). https://doi.org/10.1007/978-981-99-3362-4_57
Complete fatigue crack arrest in metallic structures using bonded prestressed iron-based shape memory alloy repairs
Wang, W., Zhou, W., Ma, Y. 'e, Motavalli, M., & Ghafoori, E. (2024). Complete fatigue crack arrest in metallic structures using bonded prestressed iron-based shape memory alloy repairs. International Journal of Fatigue, 180, 108104 (11 pp.). https://doi.org/10.1016/j.ijfatigue.2023.108104
Experimental study on steel girder strengthened with adhesively bonded iron-based shape memory alloy
Wang, S., Li, L., Su, Q., Jiang, X., & Ghafoori, E. (2024). Experimental study on steel girder strengthened with adhesively bonded iron-based shape memory alloy. In X. L. Gu, M. Motavalli, A. Ilki, & Q. Q. Yu (Eds.), Lecture notes in civil engineering: Vol. 259. International conference on smart monitoring, assessment and rehabilitation of civil structures (pp. 691-698). https://doi.org/10.1007/978-981-99-3362-4_56
Wire and arc additive manufacturing of Fe-based shape memory alloys: microstructure, mechanical and functional behavior
Felice, I. O., Shen, J., Barragan, A. F. C., Moura, I. A. B., Li, B., Wang, B., … Oliveira, J. P. (2023). Wire and arc additive manufacturing of Fe-based shape memory alloys: microstructure, mechanical and functional behavior. Materials and Design, 231, 112004 (15 pp.). https://doi.org/10.1016/j.matdes.2023.112004
Fatigue strengthening of damaged steel members using wire arc additive manufacturing
Ghafoori, E., Dahaghin, H., Diao, C., Pichler, N., Li, L., Mohri, M., … Williams, S. (2023). Fatigue strengthening of damaged steel members using wire arc additive manufacturing. Engineering Structures, 284, 115911 (15 pp.). https://doi.org/10.1016/j.engstruct.2023.115911
Metal 3D-printing for repair of steel structures
Ghafoori, E., Dahaghin, H., Diao, C., Pichler, N., Li, L., Ding, J., … Williams, S. (2023). Metal 3D-printing for repair of steel structures. In M. Veljkovic, T. Tankova, F. Kavoura, A. Taras, V. Silvestru, & V. Vigneri (Eds.), ce/papers - proceedings in civil engineering: Vol. 6. EUROSTEEL 2023 (pp. 796-801). https://doi.org/10.1002/cepa.2285
Repair and strengthening of steel structures using CFRP composites: an overview
Heydarinouri, H., Hosseini, A., Li, L., Wang, S., Motavalli, M., & Ghafoori, E. (2023). Repair and strengthening of steel structures using CFRP composites: an overview. In K. A. Harries, D. C. T. Cardoso, & F. A. Silva (Eds.), Single volume proceedings. CICE 2023. 11th international conference on fiber-reinforced polymer (FRP) composites in civil engineering (p. 6 (11 pp.). https://doi.org/10.5281/zenodo.8075725
Fatigue testing and analysis of steel plates manufactured by wire-arc directed energy deposition
Huang, C., Li, L., Pichler, N., Ghafoori, E., Susmel, L., & Gardner, L. (2023). Fatigue testing and analysis of steel plates manufactured by wire-arc directed energy deposition. Additive Manufacturing, 73, 103696 (18 pp.). https://doi.org/10.1016/j.addma.2023.103696
4D printing of recoverable buckling-induced architected iron-based shape memory alloys
Jafarabadi, A., Ferretto, I., Mohri, M., Leinenbach, C., & Ghafoori, E. (2023). 4D printing of recoverable buckling-induced architected iron-based shape memory alloys. Materials and Design, 233, 112216 (12 pp.). https://doi.org/10.1016/j.matdes.2023.112216
Effect of low-temperature precipitates on microstructure and pseudoelasticity of an Fe–Mn–Si-based shape memory alloy
Khodaverdi, H., Mohri, M., Ghorabaei, A. S., Ghafoori, E., & Nili-Ahmadabadi, M. (2023). Effect of low-temperature precipitates on microstructure and pseudoelasticity of an Fe–Mn–Si-based shape memory alloy. Materials Characterization, 195, 112486 (10 pp.). https://doi.org/10.1016/j.matchar.2022.112486
Debonding model for nonlinear Fe-SMA strips bonded with nonlinear adhesives
Li, L., Chatzi, E., & Ghafoori, E. (2023). Debonding model for nonlinear Fe-SMA strips bonded with nonlinear adhesives. Engineering Fracture Mechanics, 282, 109201 (20 pp.). https://doi.org/10.1016/j.engfracmech.2023.109201
Experimental investigation on debonding behavior of Fe-SMA-to-steel joints
Li, L., Wang, W., Chatzi, E., & Ghafoori, E. (2023). Experimental investigation on debonding behavior of Fe-SMA-to-steel joints. Construction and Building Materials, 364, 129857 (15 pp.). https://doi.org/10.1016/j.conbuildmat.2022.129857
Influence of activation temperature and prestress on behavior of Fe-SMA bonded joints
Li, L., Chatzi, E., Czaderski, C., & Ghafoori, E. (2023). Influence of activation temperature and prestress on behavior of Fe-SMA bonded joints. Construction and Building Materials, 409, 134070 (18 pp.). https://doi.org/10.1016/j.conbuildmat.2023.134070
Prediction of prestress level in steel structures strengthened by bonded Fe-SMA strips
Li, L., Wang, S., Chatzi, E., Motavalli, M., & Ghafoori, E. (2023). Prediction of prestress level in steel structures strengthened by bonded Fe-SMA strips. In M. Veljkovic, T. Tankova, F. Kavoura, A. Taras, V. Silvestru, & V. Vigneri (Eds.), ce/papers – proceedings in civil engineering: Vol. 6. EUROSTEEL 2023 (pp. 364-368). https://doi.org/10.1002/cepa.2402
Effect of heat treatment on microstructure and pseudoelasticity of a memory-steel
Mohri, M., Leinenbach, C., Lignos, D. G., & Ghafoori, E. (2023). Effect of heat treatment on microstructure and pseudoelasticity of a memory-steel. In M. Veljkovic, T. Tankova, F. Kavoura, A. Taras, V. Silvestru, & V. Vigneri (Eds.), ce/papers - proceedings in civil engineering: Vol. 6. EUROSTEEL 2023 (pp. 633-638). Ernst & Sohn GmbH.
Surface preparations and durability of iron-based shape memory alloy adhesively-bonded joints
Pichler, N., Wang, W., Poulis, J. A., & Ghafoori, E. (2023). Surface preparations and durability of iron-based shape memory alloy adhesively-bonded joints. International Journal of Adhesion and Adhesives, 125, 103439 (11 pp.). https://doi.org/10.1016/j.ijadhadh.2023.103439
Memory-steel for smart steel structures: a review on recent developments and applications
Wang, S., Mohri, M., Li, L., Izadi, M., Jafarabadi, A., Pichler, N., & Ghafoori, E. (2023). Memory-steel for smart steel structures: a review on recent developments and applications. In M. Veljkovic, T. Tankova, F. Kavoura, A. Taras, V. Silvestru, & V. Vigneri (Eds.), ce/papers - proceedings in civil engineering: Vol. 6. EUROSTEEL 2023 (pp. 949-958). https://doi.org/10.1002/cepa.2756
Stability of steel columns with bolted strengthening under preload: an analytical model
Wang, S., Su, Q., Jiang, X., & Ghafoori, E. (2023). Stability of steel columns with bolted strengthening under preload: an analytical model. Journal of Constructional Steel Research, 201, 107699 (15 pp.). https://doi.org/10.1016/j.jcsr.2022.107699
Strengthening of steel beams with adhesively bonded memory-steel strips
Wang, S., Li, L., Su, Q., Jiang, X., & Ghafoori, E. (2023). Strengthening of steel beams with adhesively bonded memory-steel strips. Thin-Walled Structures, 189, 110901 (17 pp.). https://doi.org/10.1016/j.tws.2023.110901
 

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